Files
trpic/web/scripts/thumbhash/thumbhash.js
Hubert Chen 2b8e238e72 add thumbhash
add thumbhash use `github.com/galdor/go-thumbhash` and `github.com/evanw/thumbhash`

database:
    add `thumbhash` column for `files` table
image:
    add `EncodeThumbHash()` function use `go.n16f.net/thumbhash`
router:
    add `/api/task/files/thumbhash` endpoint to check thumbhask
task:
    add `CheckThumbHash()` function
web/scripts:
    add thumbhash logic for `load_*` scripts
    add `thumbhash.js` from `https://github.com/evanw/thumbhash/blob/main/js/thumbhash.js`, edited
web/styles/gallery:
    add thumbhash transition when thumbnail loaded
    adjust style for wrapped imgs
web/templates:
    add `role="main"` for gallery and artwork id pages
    render thumbhash script for gallery pages
2026-04-21 23:26:29 +08:00

149 lines
5.4 KiB
JavaScript

// edited from https://github.com/evanw/thumbhash/blob/main/js/thumbhash.js
function thumbHashToRGBA(hash) {
let { PI, min, max, cos, round } = Math
// Read the constants
let header24 = hash[0] | (hash[1] << 8) | (hash[2] << 16)
let header16 = hash[3] | (hash[4] << 8)
let l_dc = (header24 & 63) / 63
let p_dc = ((header24 >> 6) & 63) / 31.5 - 1
let q_dc = ((header24 >> 12) & 63) / 31.5 - 1
let l_scale = ((header24 >> 18) & 31) / 31
let hasAlpha = header24 >> 23
let p_scale = ((header16 >> 3) & 63) / 63
let q_scale = ((header16 >> 9) & 63) / 63
let isLandscape = header16 >> 15
let lx = max(3, isLandscape ? hasAlpha ? 5 : 7 : header16 & 7)
let ly = max(3, isLandscape ? header16 & 7 : hasAlpha ? 5 : 7)
let a_dc = hasAlpha ? (hash[5] & 15) / 15 : 1
let a_scale = (hash[5] >> 4) / 15
// Read the varying factors (boost saturation by 1.25x to compensate for quantization)
let ac_start = hasAlpha ? 6 : 5
let ac_index = 0
let decodeChannel = (nx, ny, scale) => {
let ac = []
for (let cy = 0; cy < ny; cy++)
for (let cx = cy ? 0 : 1; cx * ny < nx * (ny - cy); cx++)
ac.push((((hash[ac_start + (ac_index >> 1)] >> ((ac_index++ & 1) << 2)) & 15) / 7.5 - 1) * scale)
return ac
}
let l_ac = decodeChannel(lx, ly, l_scale)
let p_ac = decodeChannel(3, 3, p_scale * 1.25)
let q_ac = decodeChannel(3, 3, q_scale * 1.25)
let a_ac = hasAlpha && decodeChannel(5, 5, a_scale)
// Decode using the DCT into RGB
let ratio = thumbHashToApproximateAspectRatio(hash)
let w = round(ratio > 1 ? 32 : 32 * ratio)
let h = round(ratio > 1 ? 32 / ratio : 32)
let rgba = new Uint8Array(w * h * 4), fx = [], fy = []
for (let y = 0, i = 0; y < h; y++) {
for (let x = 0; x < w; x++, i += 4) {
let l = l_dc, p = p_dc, q = q_dc, a = a_dc
// Precompute the coefficients
for (let cx = 0, n = max(lx, hasAlpha ? 5 : 3); cx < n; cx++)
fx[cx] = cos(PI / w * (x + 0.5) * cx)
for (let cy = 0, n = max(ly, hasAlpha ? 5 : 3); cy < n; cy++)
fy[cy] = cos(PI / h * (y + 0.5) * cy)
// Decode L
for (let cy = 0, j = 0; cy < ly; cy++)
for (let cx = cy ? 0 : 1, fy2 = fy[cy] * 2; cx * ly < lx * (ly - cy); cx++, j++)
l += l_ac[j] * fx[cx] * fy2
// Decode P and Q
for (let cy = 0, j = 0; cy < 3; cy++) {
for (let cx = cy ? 0 : 1, fy2 = fy[cy] * 2; cx < 3 - cy; cx++, j++) {
let f = fx[cx] * fy2
p += p_ac[j] * f
q += q_ac[j] * f
}
}
// Decode A
if (hasAlpha)
for (let cy = 0, j = 0; cy < 5; cy++)
for (let cx = cy ? 0 : 1, fy2 = fy[cy] * 2; cx < 5 - cy; cx++, j++)
a += a_ac[j] * fx[cx] * fy2
// Convert to RGB
let b = l - 2 / 3 * p
let r = (3 * l - b + q) / 2
let g = r - q
rgba[i] = max(0, 255 * min(1, r))
rgba[i + 1] = max(0, 255 * min(1, g))
rgba[i + 2] = max(0, 255 * min(1, b))
rgba[i + 3] = max(0, 255 * min(1, a))
}
}
return { w, h, rgba }
}
function thumbHashToApproximateAspectRatio(hash) {
let header = hash[3]
let hasAlpha = hash[2] & 0x80
let isLandscape = hash[4] & 0x80
let lx = isLandscape ? hasAlpha ? 5 : 7 : header & 7
let ly = isLandscape ? header & 7 : hasAlpha ? 5 : 7
return lx / ly
}
function rgbaToDataURL(w, h, rgba) {
let row = w * 4 + 1
let idat = 6 + h * (5 + row)
let bytes = [
137, 80, 78, 71, 13, 10, 26, 10, 0, 0, 0, 13, 73, 72, 68, 82, 0, 0,
w >> 8, w & 255, 0, 0, h >> 8, h & 255, 8, 6, 0, 0, 0, 0, 0, 0, 0,
idat >>> 24, (idat >> 16) & 255, (idat >> 8) & 255, idat & 255,
73, 68, 65, 84, 120, 1
]
let table = [
0, 498536548, 997073096, 651767980, 1994146192, 1802195444, 1303535960,
1342533948, -306674912, -267414716, -690576408, -882789492, -1687895376,
-2032938284, -1609899400, -1111625188
]
let a = 1, b = 0
for (let y = 0, i = 0, end = row - 1; y < h; y++, end += row - 1) {
bytes.push(y + 1 < h ? 0 : 1, row & 255, row >> 8, ~row & 255, (row >> 8) ^ 255, 0)
for (b = (b + a) % 65521; i < end; i++) {
let u = rgba[i] & 255
bytes.push(u)
a = (a + u) % 65521
b = (b + a) % 65521
}
}
bytes.push(
b >> 8, b & 255, a >> 8, a & 255, 0, 0, 0, 0,
0, 0, 0, 0, 73, 69, 78, 68, 174, 66, 96, 130
)
for (let [start, end] of [[12, 29], [37, 41 + idat]]) {
let c = ~0
for (let i = start; i < end; i++) {
c ^= bytes[i]
c = (c >>> 4) ^ table[c & 15]
c = (c >>> 4) ^ table[c & 15]
}
c = ~c
bytes[end++] = c >>> 24
bytes[end++] = (c >> 16) & 255
bytes[end++] = (c >> 8) & 255
bytes[end++] = c & 255
}
return 'data:image/png;base64,' + btoa(String.fromCharCode(...bytes))
}
function thumbHashToDataURL(hash) {
const binaryStr = atob(hash);
const bytes = new Uint8Array(binaryStr.length);
for (let i = 0; i < binaryStr.length; i++) {
bytes[i] = binaryStr.charCodeAt(i);
}
let image = thumbHashToRGBA(bytes)
return rgbaToDataURL(image.w, image.h, image.rgba)
}